The following process: Cl2(g) → 2CI(g) requires 239 kJ/mol. What is the maximum wavelength of light (in nm) that can be used to cAuse dissociation of Clz molecules into chlorine atoms? Identify the spectral region of this light. 600 500 400 Visible spectrum 2 (m) 10 10 10 102 10 102 10 106 10 10-10 1012 1014 10 Electricity Radio wares owaes X-rays Cosmic-rays Infra red (IR) UN -rays Long radio waves AM EM v (Hz) 10° 10 10 10 10 1012 1014 1016 108 1020 1022 1024 102 Increasing wavelength Increasing energy
The following process: Cl2(g) → 2CI(g) requires 239 kJ/mol. What is the maximum wavelength of light (in nm) that can be used to cAuse dissociation of Clz molecules into chlorine atoms? Identify the spectral region of this light. 600 500 400 Visible spectrum 2 (m) 10 10 10 102 10 102 10 106 10 10-10 1012 1014 10 Electricity Radio wares owaes X-rays Cosmic-rays Infra red (IR) UN -rays Long radio waves AM EM v (Hz) 10° 10 10 10 10 1012 1014 1016 108 1020 1022 1024 102 Increasing wavelength Increasing energy
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![PROBLEM 3
The following process: Cl2(g) → 2CI(g) requires 239 kJ/mol. What is the maximum wavelength
of light (in nm) that can be uSed to cause dissociation of C2 molecules into chlorine atoms?
Identify the spectral region of this light.
hm 700 600
500
400
Visible spectrum
2 (m) 10
10
10
102
10
102
10
106
10
10-10
10 12
10-14
1015
Electricity
Radio wayes
Long radio waves
Infra red (IR
UV
X-rays
-rays
Cosmic-rays
AM
EM
v (Hz) 10°
102
10
10
10
10
1012
1014
1015
108
1020
1022
1024
Increasing wavelength
Increasing energy](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F53cd4567-e9c0-49bc-8f29-7fe4db37c68a%2F671961e2-7d15-46a6-b531-9c5faeab9922%2F8tk8x07_processed.jpeg&w=3840&q=75)
Transcribed Image Text:PROBLEM 3
The following process: Cl2(g) → 2CI(g) requires 239 kJ/mol. What is the maximum wavelength
of light (in nm) that can be uSed to cause dissociation of C2 molecules into chlorine atoms?
Identify the spectral region of this light.
hm 700 600
500
400
Visible spectrum
2 (m) 10
10
10
102
10
102
10
106
10
10-10
10 12
10-14
1015
Electricity
Radio wayes
Long radio waves
Infra red (IR
UV
X-rays
-rays
Cosmic-rays
AM
EM
v (Hz) 10°
102
10
10
10
10
1012
1014
1015
108
1020
1022
1024
Increasing wavelength
Increasing energy
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